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Two progressive transverse waves given b...

Two progressive transverse waves given by `y_1 = 0.07 sin pi ( 12x - 500 t) and y_2 = 0.07 sin pi (12 x+ 500t)` travelling along a stretched string form nodes and antinodes.What is the wavelength ?

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To find the wavelength of the two progressive transverse waves given by the equations \( y_1 = 0.07 \sin(\pi (12x - 500t)) \) and \( y_2 = 0.07 \sin(\pi (12x + 500t)) \), we can follow these steps: ### Step 1: Identify the wave equations The wave equations are: - \( y_1 = 0.07 \sin(\pi (12x - 500t)) \) - \( y_2 = 0.07 \sin(\pi (12x + 500t)) \) ### Step 2: Rewrite the wave equations ...
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AAKASH SERIES-WAVE MOTION AND SOUND-PROBLEMS (LEVEL - I)
  1. Two progressive transverse waves given by y1 = 0.07 sin pi ( 12x - 500...

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  2. Two progressive transverse waves given by y1 = 0.07 sin pi ( 12x - 500...

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  3. Two progressive transverse waves given by y1 = 0.07 sin pi ( 12x - 500...

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  4. A wave of length 2m is superposed on its reflected wave to form a stat...

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  5. The equation for the vibration of a string fixed at both ends vibratin...

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  6. Two wires are kept tight between the same pair of supports. The tensio...

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  7. A one-metre long stretched string having a mass of 40 g is attached to...

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  8. A somoneter wire resonates with a given tuning fork forming standing w...

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  9. A guitar string is 90 cm long and has a fundamental frequency of 124 H...

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  10. the frequency of a sonometer wire is 10 Hz. When the weight producing ...

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  11. When the tension in a string is increased by 44%. the frequency increa...

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  12. A steel wire of length 1 m, mass 0.1 kg and uniform cross-sectional ar...

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  13. A metallic wire with tension T and at temperature 30^(@)C vibrates wit...

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  14. Three resonant frequencies of a string are 90, 150 and 210 Hz. (a) Fin...

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  15. Three resonant frequencies of a string are 90, 150 and 210 Hz. (a) Fin...

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  16. Three resonant frequencies of a string are 90, 150 and 210 Hz. (a) Fin...

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  17. Three resonant frequencies of string with both rigid ends are 90, 150 ...

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  18. The equation of a travelling sound wave is y = 6.0 sin (600 t - 1.8 x)...

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  19. The equation of a travelling sound wave is y = 6.0 sin (600 t - 1.8 x)...

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  20. The height of a cloud above the earth is 100 m. If an observer hears t...

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